diff --git a/Color_Sorting/Test_Python_Obstical_sorter.py b/Color_Sorting/Test_Python_Obstical_sorter.py new file mode 100644 index 0000000..94455bb --- /dev/null +++ b/Color_Sorting/Test_Python_Obstical_sorter.py @@ -0,0 +1,15 @@ +#!/usr/bin/env python3 + +from time import sleep + +from ev3dev2.motor import LargeMotor, OUTPUT_A, OUTPUT_B +from ev3dev2.sensor import INPUT_1 +from ev3dev2.sensor.lego import TouchSensor +from ev3dev2.led import Leds +from pixycamev3.pixy2 import Pixy2 + +pixy2 = Pixy2(port=1, i2c_address=0x54) + + +leds = Leds() +#Try what happens when sig = 3 and try out if you can define where the block lays in the camaera field (left/right/middle) diff --git a/Color_Sorting/Test_Python_PixyCam.py b/Color_Sorting/Test_Python_PixyCam.py new file mode 100644 index 0000000..ad2810d --- /dev/null +++ b/Color_Sorting/Test_Python_PixyCam.py @@ -0,0 +1,38 @@ +#!/usr/bin/env python3 + +from time import sleep + +from ev3dev2.motor import LargeMotor, OUTPUT_A, OUTPUT_B +from ev3dev2.sensor import INPUT_1 +from ev3dev2.sensor.lego import TouchSensor +from ev3dev2.led import Leds +from pixycamev3.pixy2 import Pixy2 + +pixy2 = Pixy2(port=1, i2c_address=0x54) + + +leds = Leds() +while True: + nr_blocks, blocks = pixy2.get_blocks(1, 2) + nr_blocks2, block= pixy2.get_blocks(2,2) + # Extract data of first (and only) block + if nr_blocks > 0: + sig = blocks[0].sig + x = blocks[0].x_center + y = blocks[0].y_center + w = blocks[0].width + y = blocks[0].height + print('Number=',nr_blocks) + print('sign=',sig) + elif nr_blocks2 > 0: + sig2 = block[0].sig + x2 = block[0].x_center + y2 = block[0].y_center + w2 = block[0].width + y2 = block[0].height + print('Number=',nr_blocks2) + print('sign=',sig2) + else: + print('nothing found') + + sleep(2) \ No newline at end of file diff --git a/Color_Sorting/pixycamev3/pixy2.py b/Color_Sorting/pixycamev3/pixy2.py new file mode 100644 index 0000000..e6576d1 --- /dev/null +++ b/Color_Sorting/pixycamev3/pixy2.py @@ -0,0 +1,554 @@ +""" Python package for Pixy2 and LEGO EV3 controller + +You can use this package for Pixy2 on a LEGO Ev3 controller +running on the ev3dev operating system. + +Public classes: +Pixy2 -- Common functionality of Pixy2 +Pixy2Version -- Version information +Pixy2Resolution -- Width and height of frame +Block -- Color Connected Components packet +Vector -- Vector data +Intersection -- Intersection data +Branch -- Branch data +Barcode -- Barcode data +MainFeatures -- Linetracking data + + +Author : Kees Smit +Date : December 22 2021 +Version : 1.10 +License : GNU General Public License v2 + +Charmed Labs, www.charmedlabs.com +""" +# Custom DataErrors: +class Pixy2DataError(Exception): + """ Custom error for Pixy data communication.""" + def __init__(self, message, errors): + super().__init__(message) + self.errors = errors + print(errors) + +class Pixy2ConnectionError(Exception): + """ Custom error for Pixy connection fault.""" + def __init__(self, message, errors): + super().__init__(message) + self.errors = errors + print(errors) + +class Pixy2PythonInterpreterError(Exception): + """ Custom error for Pixy on unkown Python interpreter.""" + def __init__(self, message, errors): + super().__init__(message) + self.errors = errors + print(errors) + +class Pixy2CommunicationError(Exception): + """ Custom error for fault in serial communication with Pixy2.""" + def __init__(self, message, errors): + super().__init__(message) + self.errors = errors + print(errors) + +class PlatformError(Exception): + """ Custom error for non EV3 platform.""" + def __init__(self, message, errors): + super().__init__(message) + self.errors = errors + print(errors) + +# Imports from Python standard library +import os, sys +from time import sleep + +# Check program is running on LEGO MINDSTORMS EV3 +BOARD_INFO_DIR = '/sys/class/board-info/' +msg_plf_error = 'Wrong platform: can only run on LEGO MINDSTORMS EV3' +try: + # Check if BOARD_INFO_DIR exists + os.listdir(BOARD_INFO_DIR) +except: + raise PlatformError(msg_plf_error, 'PlatformError') + +boards = os.listdir(BOARD_INFO_DIR) +for board in boards: + filename = BOARD_INFO_DIR + '/' + board + '/uevent' + with open(filename, 'r') as fn: + for line in fn.readlines(): + (key, value) = line.strip().split('=') + if key == 'BOARD_INFO_MODEL': + if value != 'LEGO MINDSTORMS EV3': + raise PlatformError(msg_plf_error, 'PlatformError') + +# Check current Python interpreter +if sys.implementation.name == 'cpython': + # Running Python on ev3dev + PLF = 'cp' +elif sys.implementation.name == 'pybricks-micropython': + # Running MicroPython on PyBricks + PLF = 'mp' +else: + # Unknown Python interpreter + msg = 'Unknown Python Interpreter.' + raise Pixy2PythonInterpreterError(msg, 'Pixy2PythonInterpreterError') + +# Import additional modules (interpreter dependent) +if PLF == 'cp': + from smbus import SMBus + from ev3dev2.sensor import INPUT_1, INPUT_2, INPUT_3, INPUT_4 + from ev3dev2.port import LegoPort +elif PLF == 'mp': + from pybricks.parameters import Port + from pybricks.iodevices import I2CDevice + + +class Pixy2: + """ This class contains all general functionalities of Pixy2. + + Keyword arguments: + port -- portnumber to wich the Pixy2 is connected (INT) + i2c_address -- i2c address for communicating with Pixy2 (hexa-decimal) + + Public methods: + get_version -- Get harware and firmware version of Pixy2 + get_resolution -- Get resolution of Pixy2 frame + set_lamp -- Turn upper and lower leds of Pixys on or off + set_mode -- Set linetracking mode + get_blocks -- Get data about detected signatures + get_linetracking_data -- Get data for linetracking + """ + def __init__(self, port=1, i2c_address=0x54): + """ Initialising Pixy2 class. + + Keyword arguments: + port -- portnumber to wich the Pixy2 is connected + (INT in range (1, 4)). + i2c_address -- i2c address for communicating with Pixy2 + (hexa-decimal, set in configuration Pixy2). + """ + self.i2c_address = i2c_address + if PLF == 'cp': + # Set LEGO port for Pixy2 + if port == 1: + pixy_port = LegoPort(INPUT_1) + elif port == 2: + pixy_port = LegoPort(INPUT_2) + elif port == 3: + pixy_port = LegoPort(INPUT_3) + elif port == 4: + pixy_port = LegoPort(INPUT_4) + else: + raise ValueError('Portnumber out of range (1, 4)') + # Set LEGO port mode to i2c + pixy_port.mode = 'other-i2c' + # Short wait for port to get ready + sleep(0.5) + # Define Pixy2 + self.pixy2 = SMBus(port+2) + elif PLF == 'mp': + # Set LEGO port for Pixy2 + if port == 1: + ev3_port = Port.S1 + elif port == 2: + ev3_port = Port.S2 + elif port == 3: + ev3_port = Port.S3 + elif port == 4: + ev3_port = Port.S4 + else: + raise ValueError('Portnumber out of range (1, 4)') + # Define Pixy2 + self.pixy2 = I2CDevice(ev3_port, i2c_address) + + def pixy2_request(self, request, response_type): + """ Send request to Pixy2, return header on success or error on fail.""" + times_tried = 0 + while True: + times_tried += 1 + if times_tried == 10: + # Tried sending 10 times without success, raise error + msg = 'Fault in serial communication.' + raise Pixy2CommunicationError(msg, 'Pixy2CommunicationError') + else: + # Send requeat to Pixy2 + self._i2c_write(request) + # Read header of response + header = self._i2c_read(6) + # Check header for success or fail + err = self._check_header(header, response_type) + if err == 'NO_ERROR': + # Successful request, break out of loop and return header + break + else: + # Request not successful, try again + pass + return header + + def _i2c_write(self, data): + """ Write data to Pixy2.""" + if PLF == 'cp': + self.pixy2.write_i2c_block_data(self.i2c_address, 0, data) + elif PLF == 'mp': + self.pixy2.write(reg=0x00, data=bytes(data)) + else: + msg = 'Unknown Python Interpreter.' + raise Pixy2PythonInterpreterError(msg, 'Pixy2PythonInterpreterError') + + def _i2c_read(self, length): + """ Read data from Pixy2.""" + if PLF == 'cp': + response = self.pixy2.read_i2c_block_data(self.i2c_address, 0, length) + elif PLF == 'mp': + response = self.pixy2.read(reg=0x00, length=length) + else: + msg = 'Unknown Python Interpreter.' + raise Pixy2PythonInterpreterError(msg, 'Pixy2PythonInterpreterError') + return response + + def _check_header(self, header, packet_type): + """ Check if data packet type is correct, raise exception when not.""" + err = 'NO_ERROR' + serial_errors = {'SER_ERROR_GENERAL': 255, # b'\xff' + 'SER_ERROR_BUSY': 254, # b'\xfe' + 'SER_ERROR_INVALID_REQUEST': 253, # b'\xfd' + 'SER_ERROR_TYPE_UNSUPPORTED': 252, # b'\xfc' + 'SER_ERROR_BUTTON_OVERRIDE': 251, # b'\xfb' + 'SER_ERROR_COMMUNICATION': 250, + } + # Check packet_type of response (header[2]) + if header[2] == 0: + # No data at all, Pixy2 connected? + msg = 'Empty data packet, check if Pixy2 is properly connected!' + raise Pixy2ConnectionError(msg, 'Pixy2ConnectionError') + elif header[2] == 3: + # Serial error + e = self._i2c_read(1) + err = [k for k, v in serial_errors.items() if v == e[0]] + elif header[2] != packet_type: + # Read wrong type of packet + msg = "Read wrong type of packet: {} instead of {}".format( + header[2], packet_type) + raise Pixy2DataError(msg, 'Pixy2DataError') + + return err + + def get_version(self): + """ Queries and receives the firmware and hardware version Pixy2.""" + pixy2_version = Pixy2Version() + # Request data + data = [174, 193, 14, 0] + response_type = 15 + header = self.pixy2_request(data, response_type) + # Read and parse data on successful request + data = self._i2c_read(7) + pixy2_version.hardware = data[1] << 8 | data[0] + fw = [str(data[2]), str(data[3]), str(data[5] << 8 | data[4])] + pixy2_version.firmware = '.'.join(fw) + pixy2_version.firmware_type = data[6] + + return pixy2_version + + def get_resolution(self): + """ Gets the width and height of the current frame.""" + resolution = PixyResolution() + data = [174, 193, 12, 1, 0] + response_type = 13 + self.pixy2_request(data, response_type) + # Read and parse data on successful request + data = self._i2c_read(4) + resolution.width = data[1] << 8 | data[0] + resolution.height = data[3] << 8 | data[2] + return resolution + + def set_lamp(self, upper, lower): + """ Turn on/off upper and lower LED's of Pixy2 (0=off, 1=on).""" + data = [174, 193, 22, 2, upper, lower] + response_type = 1 + self.pixy2_request(data, response_type) + + def set_mode(self, mode): + """ Set linetracking mode for Pixy2.""" + data = [174, 193, 54, 1, mode] + response_type = 1 + self.pixy2_request(data, response_type) + + def get_blocks(self, sigmap, max_blocks): + """ Get blockdata for sigmap.""" + blocks = [] + # Request data + data = [174, 193, 32, 2, sigmap, max_blocks] + response_type = 33 + header = self.pixy2_request(data, response_type) + length_of_payload = header[3] + nr_detected_blocks = int(length_of_payload/14) + # Read and parse data + for b in range(0, nr_detected_blocks): + data = self._i2c_read(14) + blocks.append(Block()) + blocks[b].sig = data[1] << 8 | data[0] + blocks[b].x_center = data[3] << 8 | data[2] + blocks[b].y_center = data[5] << 8 | data[4] + blocks[b].width= data[7] << 8 | data[6] + blocks[b].height = data[9] << 8 | data[8] + blocks[b].angle = data[11] << 8 | data[10] + blocks[b].tracking_index = data[12] + blocks[b].age = data[13] + + return nr_detected_blocks, blocks + + + def get_linetracking_data(self): + """ Get linetracking data from Pixy2.""" + + mainfeatures = MainFeatures() + vector = Vector() + intersection = Intersection() + branch = Branch() + barcode = Barcode() + payload_read = 0 + + # Request + data = [174,193, 48, 2, 0, 7] + response_type = 49 + header = self.pixy2_request(data, response_type) + + # Parse header info + mainfeatures.length_of_payload = header[3] + + # Read payload data + while payload_read < mainfeatures.length_of_payload: + # Read feature type and length + data = self._i2c_read(2) + feature_type = data[0] + feature_length = data[1] + # Read feature data + if feature_type == 1: + # Feature type is 'vector' + data = self._i2c_read(feature_length) + vector.x0 = data[0] + vector.y0 = data[1] + vector.x1 = data[2] + vector.y1 = data[3] + vector.index = data[4] + vector.flags = data[5] + mainfeatures.add_vector(vector) + elif feature_type == 2: + # feature type is 'intersection' + data = self._i2c_read(feature_length) + intersection.x = data[0] + intersection.y = data[1] + intersection.nr_of_branches = data[2] + for i in range(0, intersection.nr_of_branches): + i4 = i*4 + branch.index = data[i4+0] + branch.angle = data[14+1] + branch.angle_byte1 = data[i4+2] + branch.angle_byte2 = data[i4+3] + intersection.add_branch(branch) + mainfeatures.add_intersection(intersection) + elif feature_type == 4: + # Feature type is 'barcode' + data = self._i2c_read(feature_length) + barcode.x = data[0] + barcode.y = data[1] + barcode.flags = data[2] + barcode.code = data[3] + mainfeatures.add_barcode(barcode) + else: + # Unknown feature type + mainfeatures.error = True + + payload_read += feature_length + 2 + + # Return data + return mainfeatures + + def set_next_turn(self, angle): + """ Set direction for turn at next intersection.""" + if angle >= 0: + data = [174, 193, 58, 2, angle, 0] + else: + if PLF == 'cp': + angle_bytes = angle.to_bytes(2, 'little', signed=True) + elif PLF == 'mp': + angle_bytes = angle.to_bytes(2, 'little', True) + data = [174, 193, 58, 2, angle_bytes[0], angle_bytes[1]] + response_type = 1 + self.pixy2_request(data, response_type) + + def set_default_turn(self, angle): + """ Set default direction for turn at an intersection.""" + if angle >= 0: + data = [174, 193, 60, 2, angle, 0] + else: + if PLF == 'cp': + angle_bytes = angle.to_bytes(2, 'little', signed=True) + elif PLF == 'mp': + angle_bytes = angle.to_bytes(2, 'little', True) + data = [174, 193, 60, 2, angle_bytes[0], angle_bytes[1]] + response_type = 1 + self.pixy2_request(data, response_type) + + +# Pixy2 specific datatypes + +class Pixy2PacketReference: + """ Packet reference for Pixy2 serial communication.""" + def __init__(self, request_data, request_type, response_type): + self.request_data = request_data + self.request_type = request_type + self.response_type = response_type + +class Pixy2Version: + """ Version information of Pixy2.""" + def __init__(self): + self.hardware = None + self.firmware = None + self.firmware_type = None + + def __str__(self): + str_version = 'Hardware version: {}\nFirmware version: {} {}\n'.format( + self.hardware, self.firmware, self.firmware_type) + return str_version + +class Pixy2Mode: + """ Pixy2 modes for linetracking.""" + def __init__(self): + self.LINE_MODE_DEFAULT = 0x00 + self.LINE_MODE_TURN_DELAYED = 0x01 + self.LINE_MODE_MANUAL_SELECT_VECTOR = 0x02 + self.LINE_MODE_WHITE_LINE = 0x80 + + def __str__(self): + return 'Line modes for Pixy2' + +# General datatypes + +class PixyResolution: + """ Frame resolution.""" + def __init__(self): + self.width = None + self.height = None + + def __str__(self): + return 'Resolution: widht={}, height={}\n'.format( + self.width, self.height) + +class Block: + """ Datablock with detected signature.""" + def __init__(self): + self.sig = None + self.x_center = None + self.y_center = None + self.width = None + self.height = None + self.angle = None + self.tracking_index = None + self.age = None + + def __str__(self): + desc = 'sig: {}\nx: {}\ny: {}\nwidth: {}\nheight: {}'.format( + self.sig, self.x_center, self.y_center, self.width, self.height) + return desc + +class Vector: + """ Vector data for linetracking.""" + def __init__(self): + self.x0 = 0 + self.y0 = 0 + self.x1 = 0 + self.y1 = 0 + self.index = 0 + self.flags = 0 + + +class Intersection: + """ Intersection data for linetracking.""" + def __init__(self): + self.x = 0 + self.y = 0 + self.nr_of_branches = 0 + self.branches = [] + + def add_branch(self, branch): + """ Add branch to intersection.""" + b = Branch() + b.index = branch.index + b.angle = branch.angle + self.branches.append(b) + + +class Branch: + """ Data for branch of intersection.""" + def __init__(self): + self.index = 0 + self.angle = 0 + self.angle_byte1 = 0 + self.angle_byte2 = 0 + + +class Barcode: + """ Date of detected barcode.""" + def __init__(self): + self.x = 0 + self.y = 0 + self.flags = 0 + self.code = 0 + + +class MainFeatures: + """ Data for linetracking.""" + def __init__(self): + self.error = False + self.length_of_payload = 0 + self.number_of_vectors = 0 + self.number_of_intersections = 0 + self.number_of_barcodes = 0 + self.vectors = [] + self.intersections = [] + self.barcodes = [] + + def add_vector(self, vector): + v = Vector() + v.x0 = vector.x0 + v.y0 = vector.y0 + v.x1 = vector.x1 + v.y1 = vector.y1 + v.index = vector.index + v.flags = vector.flags + self.vectors.append(v) + self.number_of_vectors += 1 + + def add_intersection(self, intersection): + ints = Intersection() + b = Branch() + ints.x = intersection.x + ints.y = intersection.y + ints.nr_of_branches = intersection.nr_of_branches + for branch in intersection.branches: + b.index = branch.index + b.angle = branch.angle + b.angle_byte1 = branch.angle_byte1 + b.angle_byte2 = branch.angle_byte2 + ints.add_branch(b) + self.intersections.append(ints) + self.number_of_intersections += 1 + + def add_barcode(self, barcode): + b = Barcode() + b.x = barcode.x + b.y = barcode.y + b.flags = barcode.flags + b.code = barcode.code + self.barcodes.append(b) + self.number_of_barcodes += 1 + + def clear(self): + self.length_of_payload = 0 + self.number_of_vectors = 0 + self.number_of_intersections = 0 + self.number_of_barcodes = 0 + self.vectors.clear() + self.intersections.clear() + self.barcodes.clear() diff --git a/Test.txt b/Test.txt deleted file mode 100644 index e69de29..0000000